Marcos Souza de Almeida scite author profile

In a Biofloc Technology System (BFT), there is constant biofloc formation and suspended solids accumulation, leading to effects on water quality parameters that may affect the growth performance of cultured shrimp. This study aimed to analyse during biofloc formation the effect of different total suspended solids (TSS) levels on water quality and the growth performance of Litopenaeus vannamei shrimp in a BFT system. A 42-day trial was conducted with treatments of three ranges of TSS: 100-300 mg L À1 as low (TL), 300-600 as medium (TM) and 600-1000 as high (TH). The initial concentrations of 100 (TL), 300 (TM) and 600 mg L À1 (TH) were achieved by fertilization before starting the experiment. Litopenaeus vannamei juveniles with an average weight of 4.54 AE 1.19 g were stocked at a density of 372 shrimp m À3 . Physical and chemical water parameters and shrimp growth performance were analysed. After 6 weeks, TSS mean concentrations were 306.37, 532.43 and 745.2 mg L À1 for, respectively, TL, TM and TH treatments. Significant differences (P < 0.05) were observed in TSS, settleable solids, pH, alkalinity and nitrite, especially between the TL and TH treatments. Similarly, differences (P < 0.05) were observed in the growth performance parameters, specifically final weight, survival, feed conversion and productivity. The water quality parameters at lower range of total suspended solids concentration (TL) treatment resulted in a better performance of L. vannamei in the BFT system. The maintenance at range of 100-300 mg L À1 TSS is thus important to the success of shrimp culture.

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Bioeconomic analysis of the production of marine shrimp in greenhouses using the biofloc technology system

Almeida

Mauad

Gimenes

et al. 2021

Aquacult Int

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Economic analysis of intensive and super-intensive Litopenaeus vannamei shrimp production in a Biofloc Technology system

Almeida

Gimenes²,

Furtado³

et al. 2022

Bol. Inst. Pesca

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In recent decades, new aquaculture technologies have been developed and improved, such as the Biofloc Technology system, which is considered an alternative to the conventional aquaculture model. This study compared the bioeconomic viability of intensive production in nurseries and super-intensive production of shrimp Litopenaeus vannamei bioflocs greenhouses. The investment for implementing the project was US$ 767,190.18 for intensive production and US$ 807,669.16 for super-intensive production. The analyses showed Net Present Value of US$ 363,718.21 and US$ 385,477.42, Equivalent annual value of US$ 59,830.66 and US$ 63,410.00, Net future value of US$ 965,052.69 and US$ 1,022,786.35, Payback Period 4.12 and 4.11, Discounted payback period 5.64 and 5.63, Profitability Index 1.47 and 1.48, Internal Rate of Return 20.49 and 20.55%, and Modified Internal Rate of Return 14.61 and 14.64%. The investment analysis used in this study showed that super-intensive production in a greenhouse is the best investment option. The development of a new scenario simulating the super-intensive production of shrimp in a Biofloc Technology system, considering land use as a premise, made it possible to observe the possibility of obtaining financial gains in scale, both in the reduction of production costs and in the economic performance of the enterprise. However, the financial contribution for the implementation and operation of the project increased substantially.

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Economic analysis of intensive and super-intensive Litopenaeus vannamei shrimp production in a Biofloc Technology system

Almeida

Gimenes²,

Furtado

et al. 2022

Bol. Inst. Pesca

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